Dispersal by animals
- Key People:
- W. Atlee Burpee
- Related Topics:
- seed dispersal
- soil seed bank
- aril
- endosperm
- oilseed
Snails disperse the small seeds of a very few plant species (e.g., Adoxa). Earthworms are more important as seed dispersers. Many intact fruits and seeds can serve as fish bait, those of Sonneratia, for example, for the catfish Arius maculatus. Certain Amazon River fishes react positively to the audible “explosions” of the ripe fruits of Eperua rubiginosa. Fossil evidence indicates that saurochory is very ancient. The giant Galapagos tortoise is important for the dispersal of local cacti and tomatoes. The name alligator apple for Annona glabra refers to its method of dispersal, an example of saurochory. Many birds and mammals, ranging in size from mice and kangaroo rats to elephants, eat and disperse seeds and fruits. In the tropics, chiropterochory (dispersal by large bats such as flying foxes, Pteropus) is particularly important. Fruits adapted to these animals are relatively large and drab in colour, with large seeds and a striking (often rank) odour. Such fruits are accessible to bats because of the pagoda-like structure of the tree canopy, fruit placement on the main trunk, or suspension from long stalks that hang free of the foliage. Examples include mangoes, guavas, breadfruit, carob, and several fig species. In South Africa, a desert melon (Cucumis humifructus) participates in a symbiotic relationship with aardvarks—the animals eat the fruit for its water content and bury their own dung, which contains the seeds, near their burrows.
Furry terrestrial mammals are the agents most frequently involved in epizoochory, the inadvertent carrying by animals of dispersal units. Burrlike seeds and fruits, or those diaspores provided with spines, hooks, claws, bristles, barbs, grapples, and prickles, are genuine hitchhikers, clinging tenaciously to their carriers. Their functional shape is achieved in various ways—in cleavers, or bedstraw (Galium aparine), and enchanter’s nightshade (Circaea lutetiana), the hooks are part of the fruit itself; in common agrimony (Agrimonia eupatoria), the fruit is covered by a persistent calyx (the sepals, parts of the flower, which remain attached beyond the usual period) equipped with hooks; in wood avens (Geum urbanum), the persistent styles have hooked tips. Other examples are bur marigolds, or beggar’s-ticks (Bidens species); buffalo bur (Solanum rostratum); burdock (Arctium); Acaena; and many Medicago species. The last-named, with dispersal units highly resistant to damage from hot water and certain chemicals (dyes), have achieved wide global distribution through the wool trade.
A somewhat different principle is employed by the so-called trample burrs, said to lodge themselves between the hooves of large grazing mammals. Examples are mule grab (Proboscidea) and the African grapple plant (Harpagophytum). In water burrs, such as those of the water nut Trapa, the spines should probably be considered as anchoring devices.
Dispersal by birds
Birds, being preening animals, rarely carry burrlike diaspores on their bodies. They do, however, transport the very sticky (viscid) fruits of Pisonia, a tropical tree of the four-o’clock family, to distant Pacific islands in this way. Small diaspores, such as those of sedges and certain grasses, may also be carried in the mud sticking to waterfowl and terrestrial birds.
Synzoochory, deliberate carrying of diaspores by animals, is practiced when birds carry seeds and diaspores in their beaks. The European mistle thrush, Turdus viscivorus, deposits the viscid seeds of European mistletoe (Viscum album) on potential host plants when, after a meal of the berries, it whets its bill on branches or simply regurgitates the seeds. The North American (Phoradendron) and Australian mistletoes (Ameyema) are dispersed by various birds, and the comparable tropical species of the plant family Loranthaceae by flowerpeckers (of the bird family Dicaeidae), which have a highly specialized gizzard that allows seeds to pass through but retains insects. Plants may also profit from the forgetfulness and sloppy habits of certain nut-eating birds that cache part of their food but neglect to recover everything or drop units on their way to the hiding place. Best known in this respect are the nutcrackers (Nucifraga), which feed largely on the “nuts” of beech, oak, walnut, chestnut, and hazel; the jays (Garrulus), which hide hazelnuts and acorns; the nuthatches; and the California woodpecker (Balanosphyra), which may embed literally thousands of acorns, almonds, and pecan nuts in bark fissures or holes of trees. Secondarily, rodents may aid in dispersal by stealing the embedded diaspores and burying them. In Germany an average jay may transport about 4,600 acorns per season, over distances of up to 4 km (2.5 miles). Woodpeckers, nutcrackers, and squirrels are responsible for a similar dispersal of Pinus cembra in the Alps near the tree line.
Most ornithochores (plants with bird-dispersed seeds) have conspicuous diaspores attractive to such fruit-eating birds as thrushes, pigeons, barbets (members of the bird family Capitonidae), toucans, and hornbills (family Bucerotidae), all of which either excrete or regurgitate the hard embryo-containing part undamaged. Such diaspores have a fleshy, sweet, or oil-containing edible part; a striking colour (often red or orange); no pronounced smell; a protection against being eaten prematurely in the form of acids and tannins that are present only in the green fruit; a protection of the seed against digestion—bitterness, hardness, or the presence of poisonous compounds; permanent attachment; and, finally, absence of a hard outer cover. In contrast to bat-dispersed diaspores, they occupy no special position on the plant. Examples are rose hips, plums, dogwood fruits, barberry, red currant, mulberry, nutmeg fruits, figs, blackberries, and others. The natural and abundant occurrence of Euonymus, which is a largely tropical genus, in temperate Europe and Asia, can be understood only in connection with the activities of birds. Birds also contributed substantially to the repopulation with plants of the island Krakatoa after the catastrophic eruption of 1883. Birds have made Lantana (originally American) a pest in Indonesia and Australia; the same is true of wild plums (Prunus serotina) in parts of Europe, Rubus species in Brazil and New Zealand, and olives (Olea europaea) in Australia.
Mimicry—the protection-affording imitation of a dangerous or toxic species by an edible, harmless one—is shown in reverse by certain bird-dispersed “coral seeds” such as those of many species in the genera Abrus, Ormosia, Rhynchosia, Adenanthera, and Erythrina. Hard and often shiny red or black and red, many such seeds deceptively suggest the presence of a fleshy red aril and thus invite the attention of hungry birds.
Dispersal by ants
Mediterranean and North American harvester ants (Messor, Atta, Tetramorium, and Pheidole) are essentially destructive, storing and fermenting many seeds and eating them completely. Other ants (Lasius, Myrmica, and Formica species) eat the fleshy, edible appendage (the fat body or elaiosome) of certain specialized seeds, which they disperse. Most myrmecochorous plants (species of violet, primrose, hepatica, cyclamen, anemone, corydalis, Trillium, and bloodroot) belong to the herbaceous spring flora of northern forests. Tree poppy (Dendromecon), however, is found in the dry California chaparral; Melica and Centaurea species, in arid Mediterranean regions. The so-called ant epiphytes of the tropics (i.e., species of Hoya, Dischidia, Aeschynanthus, and Myrmecodia—plants that live in “ant gardens” on trees or offer the ants shelter in their own body cavities) constitute a special group of myrmecochores that provide oil in seed hairs. The ancestral forms of these hairs must have served in wind dispersal. The primary ant attractant of myrmecochorous seeds is not necessarily oil; instead, an unsaturated, somewhat volatile fatty acid is suspected in some cases. The myrmecochorous plant as a whole may also have specific adaptations; for example, cyclamen brings fruits and seeds within reach of ants by conspicuous coiling (shortening) of the flower stalk as soon as flowering is over.